AU618839B2

AU618839B2 - Jet wiping apparatus

Info

Publication number: AU618839B2
Application number: AU40839/89A
Authority: AU
Inventors: Raymond John Copas; Colin Joseph Grace; Malcolm Allan Robertson
Original assignee: Australian Wire Industries Pty Ltd
Current assignee: Australian Wire Industries Pty Ltd
Priority date: 1988-09-13
Filing date: 1989-08-28
Publication date: 1992-01-09
Anticipated expiration: 2009-08-28
Also published as: US5061522A; CA1326354C; JP2836857B2; ATE134392T1; CN1041185A; NZ230495A; DE68925710D1; PT91696B; KR0157614B1; GR3019944T3; EP0359527A3; MX174283B; ZA896805B; KR900004970A; ES2084601T3; AU4083989A; IN175881B; BR8904603A; NO179047C; NO179047B

Abstract

In the gas jet wiping of galvanised wire strip or tube, the gas jet wiping nozzle 10 and, preferably a reactive gas containment vessel 30 used for modifying the surface coating on the wire 16, are made in two or more non-annular parts 17,18;31,32 which when abutted together form an annulus. The parts may be releasably held together in their abutted annular form until the wire 16, strip or tube requires to be rethreaded, then the parts 17, 18;31,32 can be separated from one another transversely of the direction of travel of the wire 16, strip or tube through the nozzle 10 or containment vessel 30. The threading of the wire 16, strip or tube through an annular nozzle 10 or containment vessel is thereby avoided.

Description

~aj~ :i i r COMMONWEALTH OF AUSTRAL 6 1 08 3 9 Patent Act 1952 COMPLETE SPECIFICATION

(ORIGINAL)

Class Int. Class Application Number Lodged PJ 0403 :13 September 1988 Complete Specification Lodged Accepted Published Priority: Related Art 0 0 Name of Applicant Address of Applicant AUSTRALIAN WIR' INDUSTRIES PTY. LTD.

37-49 Pitt Street Sydney NSW 2000 Commonwealth of Australia Raymond John Copas Colin Joseph Grace Malcolm Allan Robertson Actual Inventor Address for Service F.B. RICE CO., Patent Attorneys, 28A Montague Street, BALMAIN. 2041.

Complete Specification for the invention entitled: "JET WIPING APPARATUS" The following statement is a full description of this invention including the best method of performing it known to Us:- 2 e E 2 The present invention relates to an improved process for the gas jet wiping of metallic filaments which have been dip coated in a molten metal bath, to apparatus for carrying out such a process and to an improved method for threading a filari.ent through such an apparatus.

When metal filaments, such as metal wire, strip or tube, are dip coated in a molten metal, for instance in molten zinc, aluminium or their alloys, it is normally necessary to strip excess molten metal from the surface of the filament. There are a number of known ways of achieving this, one of which is generally called gas jet Soso wiping. In gas jet wiping processes a stream of a gas is S caused to impinge upon the filament to strip the excess coating material therefrom. Typical gas jet wiping 15 apparatus and nozzles therefore are described in the following patent specifications:- 3,060,889 Australian 458,892 S. 25 537,944 539,396 27 544,277 The present applicants have recently discovered that I- 544 277 o the quality of the surface of metallic filaments which have been coated with a molten metal and wiped, by jet wiping or another wiping method, may be improved by passing the filament through a vessel containing a reactive gas such as hydrogen sulphide prior to being cooled. This discovery is the subject of the present applicants copending Australian patent application No.i 3 entitled "Stabilization of Jet Wiped Wire" the contents of whereof are incorporated herein by reference.

One difficulty associated with all conventional gas jet wiping nozzles and with the applicants newly discovered reactive gas containment vessel is that when a new filament is to be threaded through the gas jet wiping apparatus or if the filament breaks and has to be rethreaded it is difficult and sometimes time consuming to thread the filament upwardly through the relatively small throat of the gas jet wiping nozzle and upwardly through the reactive gas containment vessel given that these pieces of apparatus are often positioned closely adjacent Ithe surface of a very hot bath of molten metal.

In a first aspect, this invention provides an apparatus for use in the gas jet wiping of a metallic filament i coated with molten metal, the apparatus being formed of at least two non-annular parts which when abutted together form an annulus, the at least two parts being separable from one another in a direction transverse to the j 20 direction in which, in use, a filament would pass through the apparatus, means being provided to allow the ingress of gas to the apparatus and to releasably retain the at least two parts in operational abutment and to allow separation of the at least two parts such that a filament 25 may be positioned between them without being threaded through an annular member.

The apparatus may be a gas jet wiping nozzle or a reactive gas containment vessel.

In a still further aspect the present invention consists in apparatus for the coating of a metallic filament wi:h a molten metal, comprising a molten metal bath, means to draw a filament from the molten metal bath and through the apparatus, a gas jet wiping nozzle through which the filament passes and cooling means adapted to cool the filament by contacting it with a cooling fluid, characterized in that the gas jet wiping nozzle is a nozzle according, to the present invention and/or in that a reactive gas containment vessel according to this invention is positioned between the gas jet wiping nozzle 4 and the cooling means.

In a further aspect the present invention consists in a process for the gas jet wiping of a metallic filament passing upwardly from a molten metal bath, wherein the filament passes through a gas jet wiping nozzle and/or a reactive gas containment vessel according to this invention.

In a still further aspect the present invention comprises a method of threading a filament in apparatus for the coating of a metallic filament with a molten metal according to this invention, comprising the steps of:- .e separating at least one part of the gas jet wiping nozzle from the other part or parts to which it is releasably connected, 15 (ii) passing the filament through the bath, upwardly 6:00 between the separated nozzle parts and through the cooling means, and (iii) bringing the nozzle parts together into operational abutment about the filament.

20 The gas jet wiping nozzle used in the present invention may be of any conventional construction but is

S

preferably constructed according to Applicant's cop,-nding Ss.o 3 3 F7 Australian patent application No. entitled "Improved Product and Process" the contents whereof are incorporated herein by reference.

The essential feature of the present invention is that the nozzle and/or the reactive gas containment vessel be separable into parts such that the filament does not have to be threaded through the throat of the nozzle or the vessel but rather the nozzle or vessel parts are separated laterally while the filament is positioned in the apparatus and then brought together in operational abutment about the threaded filament.

The nozzle may be cut diametrically into two equal parts with plane abutting faces. It is preferred, m I----~13CIILLIIIIIILI-- i Ihowever, that means be provided on the parts to ensure that when abutting the gas passages in the respective parts of the nozzle are in alignment. In one embodiment of the invention this is done by forming a ridge on an abutting face of one part of the nozzle and a corresponding groove on the abutting face of the other part. While it is preferred that the nozzle is cut into only two parts it is recognised that the advantages of the j 1 present invention could be obtained with a nozzle cut into three or more parts.

The faces of the parts must be capable of being i brought into operational abutment. In respect of the nozzle the term "operational abutment" is used in this a I1 i specification to indicate that there is a sufficient 000 15 contact between the faces that there is only a limited possibility for wiping gas to flow out of the nozzle i between the abutting faces of the nozzle parts rather than through the gas passage. In respect of the gas containment vessel the term "operational abutment" is used 20 in this specification to indicate that there is sufficient 0: contact between the faces that there is only a limited possibility for reactive gas to leak from the containment vessel other than through the filament inlet and outlet apertures. It has been surprisingly found that this is i 25 quite easy to achieve by simple machining of the abutting i faces and that, contrary to expectation, there is no ,significant gas loss in either case.

The nozzle or containment vessel parts may be held in abutment by any suitable means. These means may comprise a simple clamp which fits about the nozzle or vessul. In an alternative embodiment spring pins are used to both align the parts and to releasably hold them together.

Alternatively the parts, or at least one of them, may be mounted on a double acting hydraulic or pneumatic ram which can be actuated to move the parts, or at least one i 6 of them, relatively into or out of operational abutment.

If desired one part may be fixed and the other moveable or they may both be moveable. If desired the parts may be hingedly or slidably connected together. In one particular embodiment the nozzle parts are provided with corresponding dovetailed grooves and ribs. The nozzle parts in this embodiment of the invention are initially moved apart axially of the nozzle to separate the corresponding dovetail ribs from the dovetail grooves and are then moved apart radially to allow replacement of the filament.

As used in this specification the term "filament" is taken to mean wire, both circular and non-circular in I cross-section, narrow strip material having a width no 15 more than 10 times its thickness and tubular material.

i i 'The non-circular wire may be angled in cross-section. The invention is most particularly applicable to the coating of wires having a diameter or maximum cross-sectional dimension of from 1 to 20 mm. The wire, strip or tube is 20 preferably made of a ferrous metal such as steel. The present invention is particularly suitable for use in the coating of metal filaments with molten metals such as a' a zinc, aluminium and alloys thereof.

If the apparatus is to include a reactive gas containment vessel this is preferably as described in Applicants copending Australian patent application No.eS entitled ther Improved Podua-a PFhees 1 The above comments in connection with the retaining means for the nozzle parts are applicable equally to the reactive gas containment vessel.

Hereinafter given by way of example only is a preferred embodiment of the present invention described with reference to the accompanying drawings in which:- Figure 1 is a partly cut away side elevational view of a gas jet wiping nozzle according to a first embodiment _lii 7 of the present invention, Figure 2 is a plan view of the gas jet wiping nozzle of Figure 1, Figure 3 is a diametric sectional view through a gas jet wiping nozzle according to a second embodiment of the present invention, Figure 4 is a plan view of the gas jet wiping nozzle of Figure 1 showing the parts separated from one another, Figure 5 is a side elevational view of one half of a 44 10 reactive gas containment vessel according to this invention showing the face thereof adapted to abut against i 4 another corresponding half, IFigure 6 is a plan view of the reactive gas containment vessel of which the half shown in Figure forms part, and Figure 7 is a side elevational view, partly cut away, of gas jet wiping apparatus including a gas jet wiping 44 nozzle and a reactive gas containment vessel according to the present invention.

t 20 The jet wiping nozzle 10 of Figs. 1 and 2 has an annular body 11 defining a gas inlet 12, a circular gas chamber 13 and a gas passage 14. The gas passage 14 opens into a circular throat 15 through which a wire 16 passes.

The nozzle 10 is split diametrically into two body parts 17 and 18. The body part 17 has on its abutting face 19 a V-shaped groove 21 while the part 18 has on its abutting face 22 a corresponding V-shaped rib 23. Magnets (not shown) are provided in the body part 17 to hold the body parts 17 and 18 in abutment with the rib 23 rested in the groove 21 to align the gas passage 14 in the two body parts 17 and 18.

In use the wire 16 is passed through a zinc coating bath 24, from which it emerges substantially vertically, through the jet wiping nozzle 10 and through cooling means (not shown) of the type shown in Australian patent 8 specification 462,301. If the wire 16 breaks or has for some other reason to be replaced the gas flow through the nozzle 10 will be stopped, the nozzle body parts 17 and 18 manually separated, the new wire passed through the bath 24 in the conventional manner and upwardly to pass between the separated nozzle body parts 17 and 18 through the cooling means in the conventional manner. The nozzle body parts 17 and 18 may be then repositioned in operational abutment around the wire 16 and jet wiping recommenced by starting gas flow through the nozzle This wire replacement has been achieved without the necessity of threading the wire 16 through the relatively small throat 15 as would normally be required.

The gas jet wiping nozzle of Figures 3 and 4 is similar to that of Figures 1 and 2 and the same numerals have been made to identify similar parts. The principal differences are that the nozzle part 17 is formed with four elongate bores 24 into which fit the pins 25 on the nozzle part 19. The pins 25 are of a spring type having a longitudinally extending diametric slit forming a pair of parallel spring arms. The diameter of the pins 25 is slightly larger than the diameter of the bores 24 such iF that the pins 25 serve to both align the two parts of the nozzle and to hold them firmly together.

Ij 25 Figures 5 and 6 show a reactive gas containment vessel 30 comprising a pair of box-like halves 31 and 32.

Each of the halves 31 and 32 comprises three adjacent side walls 33, 34 and 35 and end walls 36 and 37. Each of the end walls 36 and 37 has mid-way along its free edge a scalloped recess 38 to allow the passage of a wire to run between the two halves 31 and 32 when they are abutted. A reactive gas inlet pipe 39 enters the box-like half 31 through the side wall 34. The two halves 31 and 32 may be releasably held with the free edges of side walls 33 and 35 and end walls 36 and 37 abutting by four spring-type I pins 41 which extend from half 32 into bores 42 in the half 31.

The use of a gas jet wiping nozzle 10 as shown in Figures 3 and 4 and a reactive gas containment vessel is shown in Figure 7. The nozzle part 17 is mounted on one end of a toothed rack 43 which may be moved radially i towards and away from the wire 16 by a pinion (not shown) rotated by a knob 44. In the event that the wire 16 is to be rethreaded the nozzle part 18 can be removed from ~1 0 nozzle part 17 manually. The nozzle part 17 may be then I ,withdrawn radially away from the wire 16 by the manual S operation of the knob 44. The reactive gas containment S vessel may be similarly opened by manually drawing the i half 32 away from half 31. The wire 16 may then be i 15 rethreaded through the apparatus and the nozzle 10 and reactivP gas containment vessel 30 repositioned about the i wire 16.

I 4 i i i 1

Claims

1. An apparatus for use in the gas jet wiping of a rmetallic filarent coated with molten metal, the apparatus being formed of at least two non-annular parts which when abutted together form an annulus, the at least two parts being separable from one another in a direction transverse to the direction in which, in use, a filament would pass through the apparatus, means being provided to allow the ingress of gas to the apparatus and to releasably retain the at least two parts in operational abutment and to allow separation of the at least two parts such that a filament may be positioned between them without being threaded through an annular member.

2. An apparatus as claimed in claim 1, in which the means provided to releasably retain the at least two parts in operational abutment comprises a plurality of spring pins on one of the parts and engageable in corresponding bores on another of those parts.

3. An apparatus as claimed in claim i, in which the means provided to releasably retain the at least two parts in operational abutment comprises a magnet or magnets in one or each of the parts.

4. An apparatus as claimed in any one of claims 1 to 3, a in which the apparatus is formed with means to ensure that the parts are appropriately aligned with one another when abutted together. 4 5. An apparatus as claimed in any one of claims 1 to 4, in which parts of the apparatus are hingedly connected together.

6. An apparatus according to any one of claims 1 to which is a gas jet wiping nozzle.

7. An apparatus according to any one of claims 1 to which is a reactive gas containment vessel. i' A L, (Cs S~LLy: 11

8. Apparatus for the coating of a metallic filament with a molten metal, comprising a molten metal bath, means to draw a filament from the molten metal bath and through the j apparatus, a gas jet wiping nozzle according to claim 6 through which the filament passes and cooling means adapted to cool the filament by contacting it with a cooling fluid.

9. Apparatus as claimed in claim 8, in which a reactive gas containment vessel as claimed in claims 7 is positioned between the gas jet wiping nozzle and the cooling means. Apparatus as claimed in claim 8 or claim 9, in which at least one of the nozzle parts is mounted on the apparatus for sliding movement towards and away from the Sfilament.

11. Apparatus as claimed in claim 10, in which the nozzle i has two parts and in which one nozzle part is mounted on the apparatus for sliding movemcnc towards and away from the filament and the other is manually detachable from the one nozzle part.

12. Apparatus for the coating of a metallic filament with a molten metal, comprising a molten metal bath, means to draw a filament from the molten metal bath and through the apparatus, a gas jet wiping nozzle through which the filament passes and cooling means adapted to cool the filament by contacting it with a cooling fluid c characterized in that a reactive gas containment vessel as claimed in claim 7 is positioned between the gas jet wiping nozzle and the cooling means.

13. A process for the gas jet wiping of a metallic filament passing upwardly from a liquid metal bath, wherein the filament passes through a gas jet wiping nozzle as claimed in claim 6 and/or a reactive gas containment vessel as claimed in claim 7. 9 y I__ 12

14. A method of rethreading a filament in apparatus for the coating of a metallic filament with a molten metal according to any one of claims 8 to 10, comprising the steps of:- separating at least one part of the gas jet wiping nozzle from the other part or parts with which it is in operational abutment, (ii) passing the filament through the bath, upwardly between the separated nozzle parts and through the cooling means, and (iii) bringing the nozzle parts together into operational abutment about the filament. o. 15. A gas jet wiping nozzle for use in the gas jet wiping of a filament in which the nozzle comprises a substantially annular gas jet orifice which, in use, surrounds a filament being wiped and wherein the nozzle is formed from at least two non-annular parts which, when abutted together, form an annulus and combine to form the substar-ially annular orifice, the at least two parts of i the nozzle being separable from one another in a direction transverse through the direction in which, in use, a filament would pass through the nozzle, means being provided to releasably retain the at least two parts in operational abutment and to allow separation of the at least two parts suc' that a filament may be positioned between them without being threaded through an annular member. 1 A gas jet wiping nozzle substantially as hereinbefore described with reference to figures 1 and 2, or figures 3 and 4.

17. A reactive gas containment vessel substantially as hereinbefore described with reference to Figures 5 and 6. 7 I~ 13

18. Apparatus for the coating of a metallic filament with a molten metal substantially as hereinbefore described with reference to figure 7. Dated this 3rd day of October 1991 AUSTRALIAN WIRE INDUSTRIES PTY LIMITED BY: Attorneys for the applicant F. B. RICE CO. .V.J